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Explore Algosec's customer success stories to see how organizations worldwide improve security, compliance, and efficiency with our solutions. SecureLink Enables Business Agility with Hybrid Cloud Management Organization SecureLink Industry Security Service Provider Headquarters Malmo, Sweden Download case study Share Customer
success stories "To be able to apply the same policy on all your infrastructure is priceless" SecureLink is Europe’s premier, award-winning, cybersecurity company. Active since 2003, they operate from 15 offices in 8 countries, to build a safe, connected world. More than 2,000 experts and thought leaders are dedicated to delivering unrivalled information security value for over 1,300 customers. They are part of the Orange Group, one of the world’s leading telecommunications operators, and listed on Euronext Paris and the New York Stock Exchange (NYSE). The Challenge SecureLink has been an on-site consultant for several years for a large global entertainment company. SecureLink’s client has over 100 firewalls running both on-premises and on AmazonWeb Services (AWS) from several different vendors. Some of the challenges included: “Shadow IT” had taken over, causing security risks and friction with IT, who had to support it. Security policies were being managed in tedious and unmaintainable Excel spreadsheets Lack of verification if official firewall policies accurately reflected traffic flows The business units were pushing a migration to a hybrid cloud environment rather than relying exclusively on an on-premises deployment. Business units were unilaterally moving business applications to the cloud, leading to “shadow IT.” Business application owners were unable to comply with security policies, troubleshoot their “shadow network,” nor connect cloud-based servers to local servers. When there were problems, the business units went back to the IT department, who had to fix a mess they didn’t create. The Solution SecureLink was searching for a solution that provided: Automation of security policy change management and documentation of security policy changes Comprehensive firewall support for their multi-vendor, hybrid estate Ability to determine compliance and risk profiles Full visibility and control for IT, while enabling business agility In order to keep the business happy and agile, but ensure that IT had full visibility and control, they implemented AlgoSec. The client selected AlgoSec’s Security Policy Management Solution, which includes AlgoSec Firewall Analyzer and AlgoSec FireFlow. AlgoSec Firewall Analyzer delivers visibility and analysis of complex network security policies across on-premise, cloud, and hybrid networks. It automates and simplifies security operations including troubleshooting, auditing, and risk analysis. Using Firewall Analyzer, SecureLink can optimize the configuration of firewalls, and network infrastructure to ensure security and compliance. AlgoSec FireFlow enables security staff to automate the entire security policy change process from design and submission to proactive risk analysis, implementation, validation, and auditing. Its intelligent, automated workflows save time and improve security by eliminating manual errors and reducing risk. The Results AlgoSec helped SecureLink gain control of shadow IT without slowing down the business. By using AlgoSec to gain full visibility of the entire network, IT was able to regain control over company’s security policy while supporting the move to the cloud. “AlgoSec lets us take ownership and be quick for the business,” said Björn Löfman, a consultant at SecureLink. “The way AlgoSec provides the whole map of the internal and cloud networks is outstanding, and to be able to apply the same policy on all your infrastructure is priceless.” By using the AlgoSec Security Management Solution, SecureLink was able to clean up risky firewall policies, gain increased understanding of their security policies, tighten compliance, and enhance migrations of hardware and implement a hybrid cloud environment with Amazon Web Services (AWS). Some benefits to the client of AlgoSec include: Greater understanding of network security policies Easier firewall migration – they migrated from Juniper NetScreen to Check Point firewalls Ability to optimize rules and reduce unneeded and duplicate rules and objects. They were able to go from 4,000 rules to 1,110 rules – a 72% reduction. Move to the hybrid cloud with the adoption of Amazon Web Services Able to reduce shadow IT and reclaim ownership of the cloud Full visibility of entire hybrid network – including both on-premise and devices in the cloud including firewalls, AWS security groups , and Access Control Lists (ACLs). Schedule time with one of our experts

Streamline security management for Cisco ACI with AlgoSec's solution, offering visibility, policy automation, and risk management for your network infrastructure. AlgoSec security management solution for Cisco ACI Introduction With the integration of AlgoSec into the Cisco® Application Centric Infrastructure (Cisco ACI™) architecture, customers can monitor security policy changes across their Cisco ACI system, obtain risk and compliance context for both managed and unmanaged security devices, and extend automation across their entire security environment. Schedule a Demo Policy-driven, multi-tenant, application-centric security management for data centers AlgoSec Security Management Solution for Cisco ACI™ extends ACI’s policy-driven automation to security devices in the fabric, helping customers automate policy enforcement for security devices in the fabric and ensure continuous compliance across multicloud ACI environments. The need The growing demand to support diverse applications across the data center and ensure that these applications are secure and compliant poses significant challenges to data center administrators. Managing network security policies in multicloud environments, with multivendor security devices spread out across physical and virtual devices is a delicate balancing act. There is a tradeoff between reducing risk and provisioning connectivity for critical business applications. With thousands of firewall rules across many different security devices, frequent changes, a lack of trained security personnel, and lack of visibility, managing security policies manually is now impossible. It is too complex, too time-consuming, and riddled with errors – causing outages, security risks, and compliance violations. The solution AlgoSec Security Management for Cisco ACI delivers application-centric security policy change management, providing unified visibility across the entire network estate. It leverages policy-driven automation to manage security changes, assess risk, and maintain compliance. About Cisco ACI Cisco ACI, an industry-leading software-defined networking solution, facilitates application agility and data center automation. ACI enables scalable multicloud networks with a consistent policy model and provides the flexibility to move applications seamlessly to any location or any cloud while maintaining security and high availability. Schedule a Demo The AlgoSec solution The network security management solution from AlgoSec and Cisco comprises several key components: AlgoSec Firewall Analyzer (AFA) – Network security policy analysis, auditing, and compliance AlgoSec Firewall Analyzer delivers visibility and analysis of complex network security policies across Cisco ACI, firewalls attached to the ACI fabric, and other upstream security devices. The solution automates and simplifies security operations, including troubleshooting, auditing policy cleanup, risk and compliance analysis, and audit preparations. AlgoSec FireFlow (AFF) – Automation of security policy changes AlgoSec FireFlow helps you process security policy changes in a fraction of the time, so you can respond to business requirements with the agility they demand. AlgoSec FireFlow automates the entire security policy change process — from design and submission to proactive risk analysis, implementation, validation, and auditing with support for automated policy enforcement on Cisco ACI and multivendor security devices. AlgoSec AppViz – Application Visibility Add-On The AppViz add-on accelerates identification and mapping of all the network attributes and rules that support business-critical applications – making it easier for organizations to make changes to their applications across any on-premise and cloud platform, and to troubleshoot network and change management issues across the entire enterprise environment. AlgoSec AppChange – Application Lifecycle Change Management Add-On AlgoSec’s AppChange automatically updates network security policy changes on all relevant devices across the entire network. This saves time for IT and security teams and eliminates manual errors and misconfigurations. AppChange addresses the critical issues of human error and configuration mistakes which are the biggest causes of network and application outages. About the AlgoSec Security Policy Management Solution (ASMS) AlgoSec Security Policy Management Solution (ASMS) intelligently automates and orchestrates network security policy management to make enterprises more agile, more secure, and more compliant — all the time. Through a single pane of glass, users can determine application connectivity requirements, proactively analyze risk from the business perspective, and rapidly plan and execute network security changes — all with zero-touch deployment and provisioning, seamlessly orchestrated in multicloud network environments. AlgoSec integrates with Cisco ACI to extend ACI’s policy-based automation to all security devices across their data center, on its edges, and in the cloud. AlgoSec Security Management Solution for ACI enables customers to ensure continuous compliance and automates the provisioning of security policies across the ACI fabric and multivendor security devices connected to the ACI fabric, helping customers build secure data centers Schedule a Demo The integrated Cisco ACI and AlgoSec offering Through a seamless integration, AlgoSec complements Cisco ACI by extending and enhancing its policy-based automation to all security devices across the enterprise network – inside and outside the data center. With AlgoSec’s enhanced visibility and unified security policy management capabilities, customers can now process and apply security policy changes quickly, assess and reduce risk, ensure compliance, and maintain a strong security posture across their entire environment – thereby rapidly realizing the full potential of their Cisco ACI deployment. Key features of the integrated solution Visibility Provides complete visibility into tenants, endpoints, EPGs and contracts in the ACI fabric Provides a detailed change history for every firewall and other managed devices, current risk status, and device topology Quick access to key findings via the AlgoSec App for the Cisco ACI App Center Compliance Proactively performs a risk assessment for the policies (contracts) defined in the ACI fabric and policies defined for firewalls in the fabric; It also recommends the necessary changes to eliminate misconfigurations and compliance violations Proactively assesses risks for new policy change requests (before enforcement) to ensure continuous compliance Automatically generates audit-ready regulatory compliance reports for the entire ACI fabric Policy automation Automatically pushes security policy changes to Cisco ACI by creating contracts and filters to enforce data center whitelist policy Automatically pushes changes to firewalls in the ACI fabric and other network security controls in the data center Policy-driven application connectivity management Map application connectivity to ACI contracts and EPGs as well as in-fabric firewall policies Migrate application connectivity to Cisco ACI Visualize and instantly provision connectivity for business applications Assess the impact of network changes on application availability to minimize outages View risk and vulnerabilities from the business application perspective and recommend potential changes to the application policies in the ACI fabric Key benefits of the integrated solution for Cisco ACI customers Provides visibility into the security posture of the Cisco ACI fabric Delivers risk and compliance analysis and supports all major regulatory standards Reduces time and effort through security policy automation Facilitates and automates network segmentation within the data center Helps avoid outages and eliminate security device misconfigurations Significantly simplifies and reduces audit preparation efforts and costs Schedule a Demo AlgoSec App for Cisco ACI App Center AlgoSec also delivers an App for the Cisco ACI App Center, making key benefits of the integrated solution easily accessible from the APIC-user interface. The AlgoSec App for ACI provides visibility into security and compliance posture of the ACI fabric (including firewalls in the ACI fabric) and enables contract connectivity troubleshooting and the automating of security policy changes on firewalls connected to the ACI fabric. Schedule a Demo Key use cases of the integrated solution Automated security policy change management Automate security policy change management for multivendor firewalls Automatically create and push ACI contracts and EPGs “On-the-fly” risk and compliance assurance during policy changes of ACI and in-fabric firewalls Design rule changes and validate correct implementation Push policy changes directly to the device Document changes and generate an audit trail Seamlessly integrate with existing ticketing systems Risk mitigation and compliance reporting Instantly generate audit-ready reports for all major regulations, including PCI DSS, HIPAA , SOX, NERC, GDPR, and many others Risk and compliance analysis for Cisco ACI contracts and for firewall security policies Proactively uncover gaps in your firewall compliance posture across your entire estate Proactively check every change for compliance violations – and remediate problems before an audit Get a complete audit trail of all firewall changes and approval processes Application connectivity and security modeling Map application connectivity to ACI contracts and EPGs Map application connectivity to ACI fabric firewall polices Simplify application and server migrations to the data center Accelerate application delivery Reduce the cost of manual application connectivity mapping efforts Avoid application outages due to network device misconfigurations Provide risk and compliance per application Align application, security, and network teams Data center and cloud migration Provide application connectivity mapping assistance by connecting to CMDBs among other ways Map the security devices and policies to ACI’s application data constructs Provide risk assessment to application connectivity as depicted by ACI Minimize business disruption and avoid application outages during migration In-depth visibility of the security migration process Unify security policy management across multicloud environments Schedule a Demo How it works AlgoSec uses NoAPIC northbound REST APIs to learn the APIC policy configuration. AlgoSec then uses this information from Cisco ACI and adds to it the configurations and policies of the network firewalls, routers, load balancers, web proxies, and cloud security controls, to deliver a unified security policy management solution for the ACI fabric. This, in turn, provides benefits including compliance, automation, and visibility of the entire network estate. Schedule a Demo Summary Integrating Cisco ACI with AlgoSec lets you do the following: Automatically design and push security policy change s to Cisco ACI by creating contracts and filters to enforce the data center whitelist policy, and also changes to firewalls connected to the ACI fabric and to other network security controls in a multicloud environment Proactively assess risk in Cisco ACI contracts and recommend changes needed to eliminate misconfigurations and compliance violations both while making policy changes and, periodically, for the entire multicloud environment Application policy reflection of the data center’s underline security policies as implemented on firewalls and other security devices Schedule a Demo AlgoSec software components compatible with Cisco ACI AlgoSec component: AlgoSec Firewall Analyzer (AFA) V2017.3 and higherCisco Adaptive Security Appliance (ASA), Cisco Firepower® Threat Defense (FTD), Palo Alto Networks, Fortinet, Check Point Firewalls, and cloud-native security devices. Please refer to the link below for a complete list of supported devices: https://www.algosec.com/ supported-devices/ AlgoSec FireFlow (AFF) AlgoSec AppVizAlgoSec AppChangeActiveChange (for AFF) v2018.1 and higher Schedule a Demo Product availability The AlgoSec Security Policy Management Solution for Cisco ACI is available on the Cisco Global Price List (GPL) through the Cisco SolutionsPlus Program. Please contact Cisco sales or the Cisco partner network for more details. For more information Cisco Application Centric Infrastructure https://www.cisco.com/site/us/en/products/networking/cloud-networking/application-centric-infrastructure/index.html The AlgoSec Connectivity and Compliance App on ACI App Center https://dcappcenter.cisco.com/connectivitycompliance.html AlgoSec and Cisco https://www.algosec.com/cisco-algosec/. Schedule a Demo Select a size Introduction Policy-driven, multi-tenant, application-centric security management for data centers The AlgoSec solution The integrated Cisco ACI and AlgoSec offering AlgoSec App for Cisco ACI App Center Key use cases of the integrated solution How it works Summary AlgoSec software components compatible with Cisco ACI Product availability Get the latest insights from the experts Choose a better way to manage your network

What is network change management? Network Change Management (NCM) is the process of planning, testing, and approving changes to a... Network Security Policy Management Network Change Management: Best Practices for 2024 Tsippi Dach 2 min read Tsippi Dach Short bio about author here Lorem ipsum dolor sit amet consectetur. Vitae donec tincidunt elementum quam laoreet duis sit enim. Duis mattis velit sit leo diam. Tags Share this article 2/8/24 Published What is network change management? Network Change Management (NCM) is the process of planning, testing, and approving changes to a network infrastructure. The goal is to minimize network disruptions by following standardized procedures for controlled network changes. NCM, or network configuration and change management (NCCM), is all about staying connected and keeping things in check. When done the right way, it lets IT teams seamlessly roll out and track change requests, and boost the network’s overall performance and safety. There are 2 main approaches to implementing NCM: manual and automated. Manual NCM is a popular choice that’s usually complex and time-consuming. A poor implementation may yield faulty or insecure configurations causing disruptions or potential noncompliance. These setbacks can cause application outages and ultimately need extra work to resolve. Fortunately, specialized solutions like the AlgoSec platform and its FireFlow solution exist to address these concerns. With inbuilt intelligent automation, these solutions make NCM easier as they cut out errors and rework usually tied to manual NCM. The network change management process The network change management process is a structured approach that organizations use to manage and implement changes to their network infrastructure. When networks are complex with many interdependent systems and components, change needs to be managed carefully to avoid unintended impacts. A systematic NCM process is essential to make the required changes promptly, minimize risks associated with network modifications, ensure compliance, and maintain network stability. The most effective NCM process leverages an automated NCM solution like the intelligent automation provided by the AlgoSec platform to streamline effort, reduce the risks of redundant changes, and curtail network outages and downtime. The key steps involved in the network change management process are: Step 1: Security policy development and documentation Creating a comprehensive set of security policies involves identifying the organization’s specific security requirements, relevant regulations, and industry best practices. These policies and procedures help establish baseline configurations for network devices. They govern how network changes should be performed – from authorization to execution and management. They also document who is responsible for what, how critical systems and information are protected, and how backups are planned. In this way, they address various aspects of network security and integrity, such as access control , encryption, incident response, and vulnerability management. Step 2: Change the request A formal change request process streamlines how network changes are requested and approved. Every proposed change is clearly documented, preventing the implementation of ad-hoc or unauthorized changes. Using an automated tool ensures that every change complies with the regulatory standards relevant to the organization, such as HIPAA, PCI-DSS, NIST FISMA, etc. This tool should be able to send automated notifications to relevant stakeholders, such as the Change Advisory Board (CAB), who are required to validate and approve normal and emergency changes (see below). Step 3: Change Implementation Standard changes – those implemented using a predetermined process, need no validation or testing as they’re already deemed low- or no-risk. Examples include installing a printer or replacing a user’s laptop. These changes can be easily managed, ensuring a smooth transition with minimal disruption to daily operations. On the other hand, normal and emergency changes require testing and validation, as they pose a more significant risk if not implemented correctly. Normal changes, such as adding a new server or migrating from on-premises to the cloud, entail careful planning and execution. Emergency changes address urgent issues that could introduce risks if not resolved promptly, like failing to install security patches or software upgrades, which may leave networks vulnerable to zero-day exploits and cyberattacks. Testing uncovers these potential risks, such as network downtime or new vulnerabilities that increase the likelihood of a malware attack. Automated network change management (NCM) solutions streamline simple changes, saving time and effort. For instance, AlgoSec’s firewall policy cleanup solution optimizes changes related to firewall policies, enhancing efficiency. Documenting all implemented changes is vital, as it maintains accountability and service level agreements (SLAs) while providing an audit trail for optimization purposes. The documentation should outline the implementation process, identified risks, and recommended mitigation steps. Network teams must establish monitoring systems to continuously review performance and flag potential issues during change implementation. They must also set up automated configuration backups for devices like routers and firewalls ensuring that organizations can recover from change errors and avoid expensive downtime. Step 4: Troubleshooting and rollbacks Rollback procedures are important because they provide a way to restore the network to its original state (or the last known “good” configuration) if the proposed change could introduce additional risk into the network or deteriorate network performance. Some automated tools include ready-to-use templates to simplify configuration changes and rollbacks. The best platforms use a tested change approval process that enables organizations to avoid bad, invalid, or risky configuration changes before they can be deployed. Troubleshooting is also part of the NCM process. Teams must be trained in identifying and resolving network issues as they emerge, and in managing any incidents that may result from an implemented change. They must also know how to roll back changes using both automated and manual methods. Step 5: Network automation and integration Automated network change management (NCM) solutions streamline and automate key aspects of the change process, such as risk analysis, implementation, validation, and auditing. These automated solutions prevent redundant or unauthorized changes, ensuring compliance with applicable regulations before deployment. Multi-vendor configuration management tools eliminate the guesswork in network configuration and change management. They empower IT or network change management teams to: Set real-time alerts to track and monitor every change Detect and prevent unauthorized, rogue, and potentially dangerous changes Document all changes, aiding in SLA tracking and maintaining accountability Provide a comprehensive audit trail for auditors Execute automatic backups after every configuration change Communicate changes to all relevant stakeholders in a common “language” Roll back undesirable changes as needed AlgoSec’s NCM platform can also be integrated with IT service management (ITSM) and ticketing systems to improve communication and collaboration between various teams such as IT operations and admins. Infrastructure as code (IaC) offers another way to automate network change management. IaC enables organizations to “codify” their configuration specifications in config files. These configuration templates make it easy to provision, distribute, and manage the network infrastructure while preventing ad-hoc, undocumented, or risky changes. Risks associated with network change management Network change management is a necessary aspect of network configuration management. However, it also introduces several risks that organizations should be aware of. Network downtime The primary goal of any change to the network should be to avoid unnecessary downtime. Whenever these network changes fail or throw errors, there’s a high chance of network downtime or general performance. Depending on how long the outage lasts, it usually results in users losing productive time and loss of significant revenue and reputation for the organization. IT service providers may also have to monitor and address potential issues, such as IP address conflicts, firmware upgrades, and device lifecycle management. Human errors Manual configuration changes introduce human errors that can result in improper or insecure device configurations. These errors are particularly prevalent in complex or large-scale changes and can increase the risk of unauthorized or rogue changes. Security issues Manual network change processes may lead to outdated policies and rulesets, heightening the likelihood of security concerns. These issues expose organizations to significant threats and can cause inconsistent network changes and integration problems that introduce additional security risks. A lack of systematic NCM processes can further increase the risk of security breaches due to weak change control and insufficient oversight of configuration files, potentially allowing rogue changes and exposing organizations to various cyberattacks. Compliance issues Poor NCM processes and controls increase the risk of non-compliance with regulatory requirements. This can potentially result in hefty financial penalties and legal liabilities that may affect the organization’s bottom line, reputation, and customer relationships. Rollback failures and backup issues Manual rollbacks can be time-consuming and cumbersome, preventing network teams from focusing on higher-value tasks. Additionally, a failure to execute rollbacks properly can lead to prolonged network downtime. It can also lead to unforeseen issues like security flaws and exploits. For network change management to be effective, it’s vital to set up automated backups of network configurations to prevent data loss, prolonged downtime, and slow recovery from outages. Troubleshooting issues Inconsistent or incorrect configuration baselines can complicate troubleshooting efforts. These wrong baselines increase the chances of human error, which leads to incorrect configurations and introduces security vulnerabilities into the network. Simplified network change management with AlgoSec AlgoSec’s configuration management solution automates and streamlines network management for organizations of all types. It provides visibility into the configuration of every network device and automates many aspects of the NCM process, including change requests, approval workflows, and configuration backups. This enables teams to safely and collaboratively manage changes and efficiently roll back whenever issues or outages arise. The AlgoSec platform monitors configuration changes in real-time. It also provides compliance assessments and reports for many security standards, thus helping organizations to strengthen and maintain their compliance posture. Additionally, its lifecycle management capabilities simplify the handling of network devices from deployment to retirement. Vulnerability detection and risk analysis features are also included in AlgoSec’s solution. The platform leverages these features to analyze the potential impact of network changes and highlight possible risks and vulnerabilities. This information enables network teams to control changes and ensure that there are no security gaps in the network. Click here to request a free demo of AlgoSec’s feature-rich platform and its configuration management tools. Schedule a demo Related Articles 2025 in review: What innovations and milestones defined AlgoSec’s transformative year in 2025? AlgoSec Reviews Mar 19, 2023 · 2 min read Navigating Compliance in the Cloud AlgoSec Cloud Mar 19, 2023 · 2 min read 5 Multi-Cloud Environments Cloud Security Mar 19, 2023 · 2 min read Speak to one of our experts Speak to one of our experts Work email* First name* Last name* Company* country* Select country... Short answer* By submitting this form, I accept AlgoSec's privacy policy Schedule a call

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Gain comprehensive visibility and control over your network security with AlgoSec Firewall Analyzer. Simplify audits, optimize configurations, and enhance protection. AlgoSec Firewall Analyzer- See the whole picture Introduction Discover, identify, and map business applications and security policies – anywhere. With the industry’s app-centric perspective, you can now gain clear visibility into the security policies and the business applications that run your business — across your hybrid network. AlgoSec Firewall Analyzer enables you to stay on top of your security posture with continuous analysis and detection of risk and compliance gaps, allowing you to adapt quickly before an attack happens. Schedule a Demo Visualize your entire network Visualize the application connectivity and security policies across public clouds, private clouds and on-premises networks. A real-time network map provides a comprehensive view and connectivity flows of all firewalls, routers, switches, and more. Schedule a Demo Discover applications and services Never misplace an application on your network. Discover and identify your business applications and their network connectivity. Schedule a Demo Connect applications to security policy rules Firewall rules support applications or processes that require network connectivity to and from specific servers, users, and networks. With AppViz, associate the relevant business applications that each firewall rule supports, enabling you to review the firewall rules quickly and easily. Schedule a Demo Micro-segment successfully Define and enforce network segmentation throughout your hybrid network. Be confident that your network security policies don’t violate your network segmentation strategy. Schedule a Demo Clear answers in clear language Get the answers to your network security policies in plain English. Use AlgoBot, an intelligent chatbot that assists with change management processes. Reduce ticket resolution time by giving other parts of your organization the tools they need to get immediate answers. Schedule a Demo Always be compliant Identify compliance gaps across your entire hybrid network, so you can stay continuously in compliance. Identify exactly which application and security policies are potentially non-compliant. Always be ready for audits with compliance reports covering leading regulations including PCI DSS, HIPAA , SOX, GDPR, NERC, FISMA, and ISO and custom corporate policies. Schedule a Demo Identify risky rules Identify risky security policy rules, the assets they expose, and if they’re in use. Prioritize risk based on what your business values most — the applications powering your network. Schedule a Demo Map, clean up and reduce risk Clean up and optimize your security policy. Uncover unused, duplicate, overlapping, or expired rules, consolidate and reorder rules, and tighten overly permissive “ANY” rules — without impacting business requirements. Schedule a Demo About AlgoSec AlgoSec, a global cybersecurity leader, empowers organizations to securely accelerate application delivery by automating application connectivity and security policy, anywhere. The AlgoSec platform enables the world’s most complex organizations to gain visibility, reduce risk, and process changes at zero-touch across the hybrid network. Over 1,800 of the world’s leading organizations trust AlgoSec to help secure their most critical workloads across public cloud, private cloud, containers, and on-premises networks, while taking advantage of almost two decades of leadership in Network Security Policy Management. See what securely accelerating your digital transformation, move-to-cloud, infrastructure modernization, or micro-segmentation initiatives looks like at www.algosec.com . Let's start your journey to our business-centric network security. Schedule a Demo Select a size Introduction Visualize your entire network Discover applications and services Connect applications to security policy rules Micro-segment successfully Clear answers in clear language Always be compliant Identify risky rules Map, clean up and reduce risk About AlgoSec Get the latest insights from the experts Choose a better way to manage your network

Every business needs to manage risks. If not, they won’t be around for long. The same is true in cloud computing. As more companies move... Cloud Security Introduction to Cloud Risk Management for Enterprises Rony Moshkovich 2 min read Rony Moshkovich Short bio about author here Lorem ipsum dolor sit amet consectetur. Vitae donec tincidunt elementum quam laoreet duis sit enim. Duis mattis velit sit leo diam. Tags Share this article 11/24/22 Published Every business needs to manage risks. If not, they won’t be around for long. The same is true in cloud computing. As more companies move their resources to the cloud, they must ensure efficient risk management to achieve resilience, availability, and integrity. Yes, moving to the cloud offers more advantages than on-premise environments. But, enterprises must remain meticulous because they have too much to lose. For example, they must protect sensitive customer data and business resources and meet cloud security compliance requirements. The key to these – and more – lies in cloud risk management. That’s why in this guide, we’ll cover everything you need to know about managing enterprise risk in cloud computing, the challenges you should expect, and the best ways to navigate it. If you stick around, we’ll also discuss the skills cloud architects need for risk management. What is Cloud Risk Management and Why is it Important? In cloud computing, risk management refers to the process of identifying, assessing, prioritizing, and mitigating the risks associated with cloud computing environments. It’s a process of being proactive rather than reactive. You want to identify and prevent an unexpected or dangerous event that can damage your systems before it happens. Most people will be familiar with Enterprise Risk Management (ERM). Organizations use ERM to prepare for and minimize risks to their finances, operations, and goals. The same concept applies to cloud computing. Cyber threats have grown so much in recent years that your organization is almost always a target. For example, a recent report revealed 80 percent of organizations experienced a cloud security incident in the past year. While cloud-based information systems have many security advantages, they may still be exposed to threats. Unfortunately, these threats are often catastrophic to your business operations. This is why risk management in cloud environments is critical. Through effective cloud risk management strategies, you can reduce the likelihood or impact of risks arising from cloud services. Types of Risks Managing risks is a shared responsibility between the cloud provider and the customer – you. While the provider ensures secure infrastructure, you need to secure your data and applications within that infrastructure. Some types of risks organizations face in cloud environments are: Data breaches are caused by unauthorized access to sensitive data and information stored in the cloud. Service disruptions caused by redundant servers can affect the availability of services to users. Non-compliance to regulatory requirements like CIS compliance , HIPAA, and GDPR. Insider threats like malicious insiders, cloud misconfigurations, and negligence. External threats like account hijacking and insecure APIs. But risk assessment and management aren’t always straightforward. You will face certain challenges – and we’ll discuss them below: Challenges Facing Enterprise Cloud Risk Management Most organizations often face difficulties when managing cloud or third-party/vendor risks. These risks are particularly associated with the challenges that cloud deployments and usage cause. Understanding the cloud security challenges sheds more light on your organization’s potential risks. The Complexity of Cloud Environments Cloud security is complex, particularly for enterprises. For example, many organisations leverage multi-cloud providers. They may also have hybrid environments by combining on-premise systems and private clouds with multiple public cloud providers. You’ll admit this poses more complexities, especially when managing configurations, security controls, and integrations across different platforms. Unfortunately, this means organizations leveraging the cloud will likely become dependent on cloud services. So, what happens when these services become unavailable? Your organisation may be unable to operate, or your customers can’t access your services. Thus, there’s a need to manage this continuity and lock-in risks. Lack of Visibility and Control Cloud consumers have limited visibility and control. First, moving resources to the public cloud means you’ll lose many controls you had on-premises. Cloud service providers don’t grant access to shared infrastructure. Plus, your traditional monitoring infrastructure may not work in the cloud. So, you can no longer deploy network taps or intrusion prevention systems (IPS) to monitor and filter traffic in real-time. And if you cannot directly access the data packets moving within the cloud or the information contained within them, you lack visibility or control. Lastly, cloud service providers may provide logs of cloud workloads. But this is far from the real deal. Alerts are never really enough. They’re not enough for investigations, identifying the root cause of an issue, and remediating it. Investigating, in this case, requires access to data packets, and cloud providers don’t give you that level of data. Compliance and Regulatory Requirements It can be quite challenging to comply with regulatory requirements. For instance, there are blind spots when traffic moves between public clouds or between public clouds and on-premises infrastructures. You can’t monitor and respond to threats like man-in-the-middle attacks. This means if you don’t always know where your data is, you risk violating compliance regulations. With laws like GDPR, CCPA, and other privacy regulations, managing cloud data security and privacy risks has never been more critical. Understanding Existing Systems and Processes Part of cloud risk management is understanding your existing systems and processes and how they work. Understanding the requirements is essential for any service migration, whether it is to the cloud or not. This must be taken into consideration when evaluating the risk of cloud services. How can you evaluate a cloud service for requirements you don’t know? Evolving Risks Organizations struggle to have efficient cloud risk management during deployment and usage because of evolving risks. Organizations often develop extensive risk assessment questionnaires based on audit checklists, only to discover that the results are virtually impossible to assess. While checklists might be useful in your risk assessment process, you shouldn’t rely on them. Pillars of Effective Cloud Risk Management – Actionable Processes Here’s how efficient risk management in cloud environments looks like: Risk Assessment and Analysis The first stage of every risk management – whether in cloud computing or financial settings – is identifying the potential risks. You want to answer questions like, what types of risks do we face? For example, are they data breaches? Unauthorized access to sensitive data? Or are they service disruptions in the cloud? The next step is analysis. Here, you evaluate the likelihood of the risk happening and the impact it can have on your organization. This lets you prioritize risks and know which ones have the most impact. For instance, what consequences will a data breach have on the confidentiality and integrity of the information stored in the cloud? Security Controls and Safeguards to Mitigate Risks Once risks are identified, it’s time to implement the right risk mitigation strategies and controls. The cloud provider will typically offer security controls you can select or configure. However, you can consider alternative or additional security measures that meet your specific needs. Some security controls and mitigation strategies that you can implement include: Encrypting data at rest and in transit to protect it from unauthorized access. For example, you could encrypt algorithms and implement secure key management practices that protect the information in the cloud while it’s being transmitted. Implementing accessing control and authentication measures like multi-factor authentication (MFA), role-based access control (RBAC), and privileged access management (PAM). These mechanisms ensure that only authorized users can access resources and data stored in the cloud. Network security and segmentation: Measures like firewalls, intrusion detection/intrusion prevention systems (IDS/IPS), and virtual private networks (VPN) will help secure network communications and detect/prevent malicious actors. On the other hand, network segmentation mechanisms help you set strict rules on the services permitted between accessible zones or isolated segments. Regulatory Compliance and Data Governance Due to the frequency and complexity of cyber threats, authorities in various industries are releasing and updating recommendations for cloud computing. These requirements outline best practices that companies must adhere to avoid and respond to cyber-attacks. This makes regulatory compliance an essential part of identifying and mitigating risks. It’s important to first understand the relevant regulations, such as PCI DSS, ISO 27001, GDPR, CCPA, and HIPAA. Then, understand each one’s requirements. For example, what are your obligations for security controls, breach notifications, and data privacy? Part of ensuring regulatory compliance in your cloud risk management effort is assessing the cloud provider’s capabilities. Do they meet the industry compliance requirements? What are their previous security records? Have you assessed their compliance documentation, audit reports, and data protection practices? Lastly, it’s important to implement data governance policies that prescribe how data is stored, handled, classified, accessed, and protected in the cloud. Continuous Monitoring and Threat Intelligence Cloud risks are constantly evolving. This could be due to technological advancements, revised compliance regulations and frameworks, new cyber-treats, insider threats like misconfigurations, and expanding cloud service models like Infrastructure-as-a-Service (IaaS). What does this mean for cloud computing customers like you? There’s an urgent need to conduct regular security monitoring and threat intelligence to address emerging risks proactively. It has to be an ongoing process of performing vulnerability scans of your cloud infrastructure. This includes log management, periodic security assessments, patch management, user activity monitoring, and regular penetration testing exercises. Incident Response and Business Continuity Ultimately, there’s still a chance your organization will face cyber incidents. Part of cloud risk management is implementing cyber incident response plans (CIRP) that help contain threats. Whether these incidents are low-level risks that were not prioritized or high-impact risks you missed, an incident response plan will ensure business continuity. It’s also important to gather evidence through digital forensics and analyze system artifacts after incidents. Backup and Recovery Implementing data backup and disaster recovery into your risk management ensures you minimize the impact of data loss or service disruptions. For example, backing up data and systems regularly is important. Some cloud services may offer redundant storage and versioning features, which can be valuable when your data is corrupted or accidentally deleted. Additionally, it’s necessary to document backup and recovery procedures to ensure consistency and guide architects. Best Practices for Effective Cloud Risk Management Achieving cloud risk management involves combining the risk management processes above, setting internal controls, and corporate governance. Here are some best practices for effective cloud risk management: 1. Careful Selection of Your Cloud Service Provider (CSP) Carefully select a reliable cloud service provider (CSP). You can do this by evaluating factors like contract clarity, ethics, legal liability, viability, security, compliance, availability, and business resilience. Note that it’s important to assess if the CSP relies on other service providers and adjust accordingly. 2. Establishing a Cloud Risk Management Framework Consider implementing cloud risk management frameworks for a structured approach to identifying, assessing, and mitigating risks. Some notable frameworks include: National Institute of Standards and Technology (NIST) Cloud Computing Risk Management Framework (CC RMF) ISO/IEC 27017 Cloud Security Alliance (CSA) Cloud Controls Matrix (CCM) Cloud Audit and Compliance (CAC) Criteria Center for Internet Security (CIS) Controls for Cloud, etc. 3. Collaboration and Communication with Stakeholders You should always inform all stakeholders about potential risks, their impact, and incident response plans. A collaborative effort can improve risk assessment and awareness, help your organization leverage collective expertise, and facilitates effective decision-making against identified risks. 4. Implement Technical Safeguards Deploying technical safeguards like cloud access security broker (CASB) in cloud environments can enhance security and protect against risks. CASB can be implemented in the cloud or on-premise and enforces security policies for users accessing cloud-based resources. 5. Set Controls Based on Risk Treatment After identifying risks and determining your risk appetite, it’s important to implement dedicated measures to mitigate them. Develop robust data classification and lifecycle mechanisms and integrate processes that outline data protection, erasure, and hosting into your service-level agreements (SLA). 6. Employee Training and Awareness Programs What’s cloud risk management without training personnel? At the crux of risk management is identifying potential threats and taking steps to prevent them. Insider threats and the human factor contribute significantly to threats today. So, training employees on what to do to prevent risks during and after incidents can make a difference. 7. Adopt an Optimized Cloud Service Model Choose a cloud service model that suits your business, minimizes risks, and optimizes your cloud investment cost. 8. Continuous Improvement and Adaptation to Emerging Threats As a rule of thumb, you should always look to stay ahead of the curve. Conduct regular security assessments and audits to improve cloud security posture and adapt to emerging threats. Skills Needed for Cloud Architects in Risk Management Implementing effective cloud risk management requires having skilled architects on board. Through their in-depth understanding of cloud platforms, services, and technologies, these professionals can help organizations navigate complex cloud environments and design appropriate risk mitigation strategies. Cloud Security Expertise: This involves an understanding of cloud-specific security challenges and a solid knowledge of the cloud provider’s security capabilities. Risk Assessment and Management Skills: Cloud architects must be proficient in risk assessment processes, methodologies, and frameworks. It is also essential to prioritize risks based on their perceived impact and implement appropriate controls. Compliance and Regulatory Knowledge: Not complying with regulatory requirements may cause similar damage as poor risk management. Due to significant legal fees or fines, cloud architects must understand relevant industry regulations and compliance standards. They must also incorporate these requirements into the company’s risk management strategies. Incident Response and Incident Handling: Risk management aims to reduce the likelihood of incidents or their impact. It doesn’t mean completely eradicating incidents. So, when these incidents eventually happen, you want cloud security architects who can respond adequately and implement best practices in cloud environments. Conclusion The importance of prioritizing risk management in cloud environments cannot be overstated. It allows you to proactively identify risks, assess, prioritize, and mitigate them. This enhances the reliability and resilience of your cloud systems, promotes business continuity, optimizes resource utilization, and helps you manage compliance. Do you want to automate your cloud risk assessment and management? Prevasio is the ideal option for identifying risks and achieving security compliance. Request a demo now to see how Prevasio’s agentless platform can protect your valuable assets and streamline your multi-cloud environments. Schedule a demo Related Articles 2025 in review: What innovations and milestones defined AlgoSec’s transformative year in 2025? AlgoSec Reviews Mar 19, 2023 · 2 min read Navigating Compliance in the Cloud AlgoSec Cloud Mar 19, 2023 · 2 min read 5 Multi-Cloud Environments Cloud Security Mar 19, 2023 · 2 min read Speak to one of our experts Speak to one of our experts Work email* First name* Last name* Company* country* Select country... Short answer* By submitting this form, I accept AlgoSec's privacy policy Schedule a call

In this webinar, our experts show how application centric automation can help secure connectivity Webinars Secure Application Connectivity with Automation In this webinar, our experts show how application centric automation can help secure connectivity. How can a high degree of application connectivity be achieved when your data is widely distributed? Efficient cloud management helps simplify today’s complex network environment, allowing you to secure application connectivity anywhere. But it can be hard to achieve sufficient visibility when your data is dispersed across numerous public clouds, private clouds, and on-premises devices. Today it is easier than ever to speed up application delivery across a hybrid cloud environment while maintaining a high level of security. In this webinar, we’ll discuss: – The basics of managing multiple workloads in the cloud – How to create a successful enterprise-level security management program – The structure of effective hybrid cloud management March 22, 2022 Asher Benbenisty Director of product marketing Relevant resources Best Practices for Incorporating Security Automation into the DevOps Lifecycle Watch Video Avoiding the Security/Agility Tradeoff with Network Security Policy Automation Keep Reading Choose a better way to manage your network Choose a better way to manage your network Work email* First name* Last name* Company* country* Select country... Short answer* By submitting this form, I accept AlgoSec's privacy policy Continue

Organizations no longer keep their data in one centralized location. Users and assets responsible for processing data may be located... Zero Trust How to Create a Zero Trust Network Tsippi Dach 2 min read Tsippi Dach Short bio about author here Lorem ipsum dolor sit amet consectetur. Vitae donec tincidunt elementum quam laoreet duis sit enim. Duis mattis velit sit leo diam. Tags Share this article 2/12/24 Published Organizations no longer keep their data in one centralized location. Users and assets responsible for processing data may be located outside the network, and may share information with third-party vendors who are themselves removed from those external networks. The Zero Trust approach addresses this situation by treating every user, asset, and application as a potential attack vector whether it is authenticated or not. This means that everyone trying to access network resources will have to verify their identity, whether they are coming from inside the network or outside. What are the Zero Trust Principles and Concepts? The Zero Trust approach is made up of six core concepts that work together to mitigate network security risks and reduce the organization’s attack surface. 1. The principle of least privilege Under the Zero Trust model, network administrators do not provide users and assets with more network access than strictly necessary. Access to data is also revoked when it is no longer needed. This requires security teams to carefully manage user permissions , and to be able to manage permissions based on users’ identities or roles. The principle of least privilege secures the enterprise network ecosystem by limiting the amount of damage that can result from a single security failure. If an attacker compromises a user’s account, it won’t automatically gain access to a wide range of systems, tools, and workloads beyond what that account is provisioned for. This can also dramatically simplify the process of responding to security events, because no user or asset has access to assets beyond the scope of their work. 2. Continuous data monitoring and validation Zero trust policy assumes that there are attackers both inside and outside the network. To guarantee the confidentiality, integrity, and availability of network assets, it must continuously evaluate users and assets on the network. User identity and privileges must be checked periodically along with device identity and security. Organizations accomplish this in a variety of ways. Connection and login time-outs are one way to ensure periodic monitoring and validation since it requires users to re-authenticate even if they haven’t done anything suspicious. This helps protect against the risk of threat actors using credential-based attacks to impersonate authenticated users, as well as a variety of other attacks. 3. Device access control Organizations undergoing the Zero Trust journey must carefully manage and control the way users interact with endpoint devices. Zero Trust relies on verifying and authenticating user identities separately from the devices they use. For example, Zero Trust security tools must be able to distinguish between two different individuals using the same endpoint device. This approach requires fundamental changes to the way certain security tools work. For example, firewalls that allow or deny access to network assets based purely on IP address and port information aren’t sufficient. Most end users have more than one device at their disposal, and it’s common for mobile devices to change IP addresses. As a result, the cybersecurity tech stack needs to be able to grant and revoke permissions based on the user’s actual identity or role. 4. Network micro segmentation Network segmentation is a good security practice even outside the Zero Trust framework, but it takes on special significance when threats can come from inside and outside the network. Microsegmentation takes this one step further by breaking regular network segments down into small zones with their own sets of permissions and authorizations. These microsegments can be as small as a single asset, and an enterprise data center may have dozens of separately secured zones like these. Any user or asset with permission to access one zone will not necessarily have access to any of the others. Microsegmentation improves security resilience by making it harder for attackers to move between zones. 5. Detecting lateral movement Lateral movement is when threat actors move from one zone to another in the network. One of the benefits of micro segmentation is that threat actors must interact with security tools in order to move between different zones on the network. Even if the attackers are successful, their activities generate logs and audit trails that analysts can follow when investigating security incidents. Zero Trust architecture is designed to contain attackers and make it harder for them to move laterally through networks. When an attack is detected, the compromised asset can be quarantined from the rest of the network. Assets can be as small as individual devices or user accounts, or as large as entire network segments. The more granular your security architecture is, the more choices you have for detecting and preventing lateral movement on the network. 6. Multi-factor authentication (MFA) Passwords are a major problem for traditional security models, because most security tools automatically extend trust to anyone who knows the password. Once a malicious actor learns a privileged user’s login credentials, they can bypass most security checks by impersonating that user. Multi-factor authentication solves that problem by requiring users to provide more information. Knowing a password isn’t enough – users must authenticate by proving their identity in another way. These additional authentication factors can come in the form of biometrics, challenge/response protocols, or hardware-based verifications. How To Implement a Zero Trust Network 1. Map Out Your Attack Surface There is no one-size-fits-all solution for designing and implementing Zero Trust architecture. You must carefully define your organization’s attack surface and implement solutions that protect your most valuable assets. This will require a variety of tools, including firewalls, user access controls, permissions, and encryption. You will need to segment your network into individual zones and use microsegmentation to secure high-value and high-volume zones separately. Pay close attention to how your organization secures its most important assets and connections: Sensitive data . This might include customer and employee data, proprietary information, and intellectual property that you can’t allow threat actors to gain access to. It should benefit from the highest degree of security. Critical applications. These applications play a central role in your organization’s business processes, and must be protected against the risk of disruption. Many of them process sensitive data and must benefit from the same degree of security. Physical assets. This includes everything from customer-facing kiosks to hardware servers located in a data center. Access control is vital for preventing malicious actors from interacting with physical assets. Third-party services. Your organization relies on a network of partners and service providers, many of whom need privileged access to your data. Your Zero Trust policy must include safeguards against attacks that compromise third-party partners in your supply chain. 2. Implement Zero Trust Controls using Network Security Tools The next step in your Zero Trust journey is the implementation of security tools that allow you collect, analyze, and respond to user behaviors on your network. This may require the adjustment of your existing security tech stack, and the addition of new tools designed for Zero Trust use cases. Firewalls must be able to capture connection data beyond the traditional IP, port, and protocol data that most simple solutions rely on. The Zero Trust approach requires inspecting the identities of users and assets that connect with network assets, which requires more advanced firewall technology. This is possible with next generation firewall (NGFW) technology. VPNs may need to be reconfigured or replaced because they do not typically enforce the principle of least privilege. Usually, VPNs grant users access to the entire connected network – not just one small portion of it. In most cases, organizations pursuing Zero Trust stop using VPNs altogether because they no longer provide meaningful security benefits. Zero Trust Network Access (ZTNA) provides secure access to network resources while concealing network infrastructure and services. It is similar to a software-defined perimeter that dynamically responds to network changes and grants flexibility to security policies. ZTNA works by establishing one-to-one encrypted connections between network assets, making imprecise VPNs largely redundant. 3. Configure for Identity and Access Management Identity-based monitoring is one of the cornerstones of the Zero Trust approach. In order to accurately grant and revoke permissions to users and assets on the network, you must have some visibility into the identities behind the devices being used. Zero Trust networks verify user identities in a variety of ways. Some next-generation firewalls can distinguish between user traffic, device traffic, application traffic, and content. This allows the firewall to assign application sessions to individual users and devices, and inspect the data being transmitted between individuals on networks. In practice, this might mean configuring a firewall to compare outgoing content traffic with an encrypted list of login credentials. If a user accidentally logs onto a spoofed phishing website and enters their login credentials, the firewall can catch the data before it is transferred off the network. This would not be possible without the ability to distinguish between different types of traffic using next-generation firewall technology. Multi-factor authentication is also vital to identity and access management. A Zero Trust network should not automatically authenticate a user who presents the correct username and password combination to access a secure account. This does not prove the identity of the individual who owns the account – it only proves that the individual knows the username and password. Additional verification factors make it more likely that this person is, in fact, the owner of the account. 4. Create a Zero Trust Policy for Your IT Environment The process of implementing Zero Trust policies in cloud-native environments can be complex. Every third-party vendor and service provider has a role to play in establishing and maintaining Zero Trust. This often puts significant technical demands on third-party partners, which may require organizations to change their existing agreements. If a third-party partner cannot support Zero Trust, they can’t be allowed onto the network. The same is true for on-premises and data center environments, but with added emphasis on physical security and access control. Security leaders need to know who has physical access to servers and similar assets so they can conduct investigations into security incidents properly. Data centers need to implement strict controls on who interacts with protected equipment and how their access is supervised. How to Operationalize Zero Trust Your Zero Trust implementation will not automatically translate to an operational security context that you can immediately use. You will need to adopt security operations that reflect the Zero Trust strategy and launch adaptive security measures that address vulnerabilities in real-time. Gain visibility into your network. Your network perimeter is no longer strictly defined by its hardware. It consists of cloud resources, automated workflows, operating systems, and more. You won’t be able to enforce Zero Trust without gaining visibility into every aspect of your network environment. Monitor network infrastructure and traffic. Your security team will need to monitor and respond to access requests coming from inside and outside your network. This can lead to significant bottlenecks if your team is not equipped with solutions for automatically managing network traffic and access. Streamline detection and response. Zero Trust networks mitigate the risks of cyberattacks, malware, ransomware, and other potential threats, but it’s still up to individual security analysts to detect and investigate security incidents. The volume of data analysts must inspect may increase significantly, so you should be prepared to mitigate the issue of alert fatigue. Automate Endpoint Security. Consider implementing an automated Endpoint Detection and Response (EDR) solution that can identify malicious behaviors on network devices and address them in real-time. Implement Zero Trust With AlgoSec AlgoSec is a global cybersecurity leader that provides secure application connectivity and policy management through a unified platform. It aligns with Zero Trust principles to provide comprehensive traffic flow analysis and optimization while automated policy changes and eliminating the risk of compliance violations. Security leaders rely on AlgoSec to implement and operationalize Zero Trust deployments while proactively managing complex security policies . AlgoSec can help you establish a Zero Trust network quickly and efficiently, providing visibility and change management capabilities to your entire security tech stack and enabling security personnel to address misconfiguration risks in real-time. Book a demo now to find out how AlgoSec can help you adopt Zero Trust security and prevent attackers from infiltrating your organization. Schedule a demo Related Articles 2025 in review: What innovations and milestones defined AlgoSec’s transformative year in 2025? AlgoSec Reviews Mar 19, 2023 · 2 min read Navigating Compliance in the Cloud AlgoSec Cloud Mar 19, 2023 · 2 min read 5 Multi-Cloud Environments Cloud Security Mar 19, 2023 · 2 min read Speak to one of our experts Speak to one of our experts Work email* First name* Last name* Company* country* Select country... Short answer* By submitting this form, I accept AlgoSec's privacy policy Schedule a call

Discover key insights on cloud network security, its benefits, challenges, and best practices for protecting your cloud environment effectively. Cloud network security: Challenges and best practices What is cloud network security? Cloud network security refers to the measures used to protect public, private, and hybrid cloud networks. These measures include technology, services, processes, policies, and controls and can defend against data exposure or misuse. Why is cloud network security important? Cloud network security is important because of the wide range of threats to data and other cloud resources. Some of the most common include data breaches and exposure, malware, phishing, compromised APIs, distributed denial-of-service (DDoS), and DNS attacks, among others. In addition to defending against threat actors, cloud networks must also comply with an ever-growing number of regulations. A cloud-native security tool can provide the protection, incident response, and compliance that organizations need. Cloud security vs. network security Network security is a type of cloud security. If used in a hybrid system, it can rely on physical barriers and protections, whereas cloud security must exclusively use virtual solutions. In cloud computing, several organizations may share resources through infrastructure-as-a-service platforms like AWS EC2. Distributed data centers mean physical cybersecurity measures, like firewalls, must be replaced with virtual projections. There are three categories of cloud security: public, private, and hybrid cloud environments. Each offers its own set of challenges, which only increase in complexity for organizations with a multi-cloud environment. Schedule a Demo How does cloud network security work? Cloud network security routes traffic using software-defined networking. These protections are different from on-premise firewall systems and are virtualized and live in the cloud. The most secure platforms are built on a zero-trust security model, requiring authentication and verification for every connection. This helps protect cloud resources and defend them throughout the threat lifecycle. Schedule a Demo The benefits of cloud network security Cloud networks are inherently complex, and managing them using native tools can leave your organization vulnerable. Using a cloud network security solution offers several advantages. Improved protection The most important benefit of a secure cloud infrastructure is better protection. Managed permissions and orchestration can help prevent breaches and ensure better security across the system. Automated compliance A security solution can also help ensure compliance through automation that reviews policies for the most up-to-date regulatory and industry requirements and deploys the policy to multiple cloud platforms from a single place. Better visibility With a comprehensive solution, you can see all your properties—including on-premise and hybrid systems—in a single pane of glass. Improved visibility means recognizing new threats faster and resolving issues before they arise. Schedule a Demo Cloud network security challenges The cloud offers several benefits over traditional networks but also leads to unique vulnerabilities. Complexity across security control layers Cloud providers’ built-in security controls, such as security groups and network ACLs, impacts security posture. There is a need to protect cloud assets such as virtual machines, DBaaS, and serverless functions. Misconfigurations can introduce security risks across various assets, including IaaS and PaaS. Cloud and traditional firewall providers also offer advanced network security products (such as Azure Firewall, Palo Alto VM-Series, Check Point CloudGuard). Multiple public clouds Today’s environment uses multiple public clouds from AWS, Azure, and GCP. Security professionals are challenged by the need to understand their differences while managing them separately using multiple consoles and diverse tools. Multiple stakeholders Unlike on-premise networks, managing deployment is especially challenging in the cloud, where changes to configurations and security rules are often made by application developers, DevOps, and cloud teams. Schedule a Demo Key layers for cloud security Robust public cloud network security architecture must include four separate areas—layers that build upon each other for an effective network security solution. Cloud security architecture is fundamentally different from its on-premise counterpart. Cloud security challenges are met by a layered approach rather than a physical perimeter. Security for AWS, Azure, or any other public cloud employs four layers of increasing protection. Layer 1: Security groups Security groups form the first and most fundamental layer of cloud network security. Unlike traditional firewalls that use both allow and deny rules, security groups deny traffic by default and only use allow rules. These security groups are similar to the firewalls of the 90s in that they’re directly connected to servers (instances, in cloud architecture terms). If this first layer is penetrated, control of the associated security group is exposed. Layer 2: Network Access Control Lists (NACLs) Network Access Control Lists (NACLs) are used to provide AWS and Azure cloud security. Each NACL is connected to a Virtual Private Network (VPN) or Virtual Private Cloud (VPC) in AWS or VNet in Azure and controls all instances of that VPC or VNet. Centralized NACLs hold both allow and deny rules and make cloud security posture much stronger than Layer 1, making Layer 2 essential for cloud security compliance. Layer 3: Cloud vendor security solution Cloud security is a shared responsibility between the customer and the vendor, and today’s vendors include their own solutions, which must be integrated into the platform as a whole. For example, Microsoft’s Azure Firewall as a Service (FWaaS), a next-generation secure internet gateway, acts like a wall between the cloud itself and the internet. Layer 4: Third-party cloud security services Traditional firewall vendors, like solutions from Check Point (CloudGuard) and Palo Alto Networks (VM-Series), need to be integrated as well. These third parties create firewalls that stand between the public clouds and the outside world. They develop segmentation for the cloud’s inner perimeter like an on-premise network. This fourth layer is key for infrastructure built to defend against the most difficult hybrid cloud security challenges . Schedule a Demo Why AlgoSec AlgoSec Cloud offering provides application-based risk identification and security policy management across the multi-cloud estate. As organizations adopt cloud strategies and migrate applications to take advantage of cloud economies of scale, they face increased complexity and risk. Security controls and network architectures from leading cloud vendors are distinct and do not provide unified central cloud management. Cloud network security under one unified umbrella AlgoSec Cloud offering enables effective security management of the various security control layers across the multi-cloud estate. AlgoSec offers instant visibility, risk assessment, and central policy management , enabling a unified and secure security control posture, proactively detecting misconfigurations. Continuous visibility AlgoSec provides holistic visibility for all of your cloud accounts assets and security controls. Risk management Proactively detect misconfigurations to protect cloud assets, including cloud instances, databases, and serverless functions. Identify risky rules as well as their last usage date and confidently remove them. Tighten overall network security by mapping network risks to applications affected by these risks. Central management of security policies Manage network security controls, such as security groups and Azure Firewalls, in one system across multiple clouds, accounts, regions, and VPC/ VNETs. Manage similar security controls in a single security policy so you can save time and prevent misconfigurations. Policy cleanup As cloud security groups are constantly adjusted, they can rapidly bloat. This makes it difficult to maintain, increasing potential risk. With CloudFlow’s advanced rule cleanup capabilities, you can easily identify unused rules and remove them with confidence. Schedule a Demo Select a size What is cloud network security? How does cloud network security work? The benefits of cloud network security Cloud network security challenges Key layers for cloud security Why AlgoSec Get the latest insights from the experts 6 best practices to stay secure in the hybrid cloud Read more The enterprise guide to hybrid network management Read more Multi-Cloud Security Network Policy and Configuration Management Read more Choose a better way to manage your network

Cloud environments are complex and dynamic. Due to the complexity and multifacetedness of cloud technologies, cloud-native applications... Cloud Security What is a Cloud-Native Application Protection Platform (CNAPP) Ava Chawla 2 min read Ava Chawla Short bio about author here Lorem ipsum dolor sit amet consectetur. Vitae donec tincidunt elementum quam laoreet duis sit enim. Duis mattis velit sit leo diam. Tags Share this article 11/24/22 Published Cloud environments are complex and dynamic. Due to the complexity and multifacetedness of cloud technologies, cloud-native applications are challenging to safeguard. As a result, security teams use multiple security solutions, like CWPP and CSPM, to protect applications. The problem with this approach is that handling multiple security tools is laborious, time-consuming, and inefficient. Cloud-native application protection platform (CNAPP) is a new cloud security solution that promises to solve this problem. What is CNAPP? A cloud-native application protection platform (CNAPP) is an all-in-one tool with the capabilities of different cloud-native security tools. It combines the security features of multiple tools and provides comprehensive protection – from the development and configuration stages to deployment and runtime. Container security is here to stay A CNAPP combines CSPM, CIEM, IAM, CWPP, and more in one tool. It streamlines cloud security monitoring, threat detection, and remediation processes. The all-in-one platform gives organizations better visibility into threats and vulnerabilities. Instead of using multiple tools to receive alerts and formulate a remediation plan, a CNAPP minimizes complexity and enables security teams to monitor and draw insights from a single platform. How Does CNAPP Work and Why is it So Important to Have? This new cloud security approach offers the capabilities of multiple security tools in one software. Some of these security functions include Cloud Security Posture Management (CSPM), Infrastructure-as-Code (IaC) Scanning, Cloud Workload Protection Platform (CWPP), Cloud Network Security Connectivity (CNSC), and Kubernetes Security Posture Management (CIEM). The all-in-one platform centralizes insights, enabling security professionals to monitor and analyze data from the same space. A CNAPP identifies risks with strong context, provides detailed alerts, and offers automation features to fix vulnerabilities and misconfigurations. A CNAPP is essential because it reduces complexity and minimizes overhead. Given how complex and dynamic the cloud environments are, organizations are faced with enormous security threats. Enterprises deploy applications on multiple private and public clouds leveraging various dynamic, mixed technologies. This makes securing cloud assets significantly challenging. To cope with the complexity, security operations teams rely on multiple cloud security solutions. SecOps use various solutions to protect modern development practices, such as containers, Kubernetes, serverless functions, CI/CD pipelines, and infrastructure as code (IaC). This approach has been helpful. That said, it’s laborious and inefficient. In addition to not providing a broad view of security risks, dealing with multiple tools negatively impacts accuracy and decreases productivity. Having to correlate data from several platforms leads to errors and delayed responses. A CNAPP takes care of these problems by combining the functionalities of multiple tools in one software. It protects every stage of the cloud application lifecycle, from development to runtime. Leveraging advanced analytics and remediation automation, CNAPPs help organizations address cloud-native risks, harden applications, and institute security best practices. What Problems Does a CNAPP Solve? This new category of cloud application security tool is revolutionizing the cybersecurity landscape. It solves major challenges DevSecOps have been dealing with. That said, a CNAPP helps security teams to solve the following problems. 1. Enhancing Visibility and Quantifying Risks A CNAPP offers a broader visibility of security risks. It leverages multiple security capabilities to enable DevOps and DevSecOps to spot and fix potential security issues throughout the entire application lifecycle. The all-in-one security platform enables teams to keep tabs on all cloud infrastructures ( like apps, APIs, and classified data) and cloud services (like AWS, Azure, and Google Cloud). In addition, it provides insights that help security teams to quantify risks and formulate data-driven remediation strategies. 2. Combined Cloud Security Solution A CNAPP eliminates the need to use multiple cloud-native application protection solutions. It provides all the features needed to detect and solve security issues. Scanning, detection, notification, and reporting are consolidated in one software. This reduces human error, shortens response time, and minimizes the cost of operation. 3. Secure Software Development It reinforces security at every stage of the application lifecycle. The tool helps DevOps teams to shift left, thus minimizing the incidence of vulnerabilities or security issues at runtime. 4. Team Collaboration Collaboration is difficult and error-prone when teams are using multiple tools. Data correlation and analysis take more time since team members have more than one tool to deal with. A CNAPP is a game-changer! It has advanced workflows, data correlation, analytics, and remediation features. These functionalities enhance team collaboration and increase productivity. What are CNAPP Features and Capabilities/Key Components of CNAPP? Even though the features and capabilities of CNAPPs differ (based on vendors), there are key components an effective CNAPP should have. That being said, here are the seven key components: Cloud Security Posture Management (CSPM) A CSPM solution focuses on maintaining proper cloud configuration. It monitors, detects, and fixes misconfigurations & compliance violations. CSPM monitors cloud resources and alerts security teams when a non-compliant resource is identified. Infrastructure-as-Code (IaC) Scanning IaC Scanning enables the early detection of errors (misconfigurations) in code. Spotting misconfigurations before deployment helps to avoid vulnerabilities at runtime. This tool is used to carry out some kind of code review. The purpose is to ensure code quality by scanning for vulnerable points, compliance issues, and violations of policies. Cloud Workload Protection Platform (CWPP) Cloud workload protection platform (CSPM) secures cloud workloads, shielding your resources from security threats. CSPM protects various workloads, from virtual machines (VMs) and databases to Kubernetes and containers. A CWPP monitors and provides insights to help security teams prevent security breaches. Cloud Network Security Connectivity (CNSC) Cloud Network Security Connectivity (CNSC) provides complete real-time visibility and access to risks across all your cloud resources and accounts. This cloud security solution allows you to explore the risks, activate security rules, and suppress whole risks or risk triggers, export risk trigger details, access all network rules in the context of their policy sets and create risk reports. Kubernetes Security Posture Management (KSPM) Kubernetes security posture management (KSPM) capability enables organizations to maintain standard security posture by preventing Kubernetes misconfigurations and compliance violations. KSPM solution, similar to Cloud Security Posture Management (CSPM), automates Kubernetes security, reinforces compliance, identifies misconfigurations, and monitors Kubernetes clusters to ensure maximum security. Cloud Infrastructure Entitlement Management (CIEM) A Cloud Infrastructure Entitlement Management (CIEM) tool is used to administer permissions and access policies. To maintain the integrity of cloud and multi-cloud environments, identities and access privileges must be regulated. This is where CIEM comes in! CIEM solutions, also known as Cloud permissions Management Solutions, help organizations prevent data breaches by enforcing the principle of least privileges. Integration to Software Development Activities This component of CNAPP focuses on integrating cloud-native application protection solutions into the development phase to improve reliability and robustness in the CI/CD pipeline stage. What are the Benefits of CNAPP? Transitioning from using multiple cloud security tools to implementing a CNAPP solution can benefit your company in many ways. Some benefits include: 1. Streamlines Security Operations Managing multiple security tools decreases efficiency and leads to employee burnout. Correlating data from different software is laborious and error-prone. It prolongs response time. A CNAPP streamlines activities by giving security teams broad visibility from a single tool. This makes monitoring and remediation easier than ever – making security teams more efficient and productive. 2. Better Visibility into Risks A CNAPP provides better visibility into security risks associated with your cloud infrastructure. It covers all aspects of cloud-native application protection, providing security teams with the necessary insights to close security gaps, harden applications, and ward off threats. 3. Improves Security With Automation Risk detection and vulnerability management are automated. Automation of security tasks increases reliability, reduces human error, and enables rapid response to threats. It combines automation and advanced analytics to offer organizations accurate insights into risks. 4. Reduces the Number of Bug Fixes A CNAPP prevents vulnerabilities at runtime by detecting threats and errors in the CI/CD pipeline phases. This approach improves DevOps team productivity and decreases the number of bug fixes after deployment. In other words, shifting left ensures the deployment of high-quality code. 5. Reduces Overhead Costs If you want to cut down the cost of operation, consider choosing a CNAPP over CSPM and other standalone cloud security tools. It reduces overhead by eliminating the need to operate and maintain multiple cloud security solutions. AlgoSec CNAPP with Prevasio and CloudFlow Cloud environments are increasingly complex and dynamic. Maintaining secure cloud infrastructures has become more challenging than ever. Security teams rely on multiple tools to gain visibility into risks. CNAPPs promise to fix the challenges of using multiple solutions to protect cloud-native applications. Gartner, the first to describe the CNAPP category, encourages organizations to consider emerging CNAPP providers and adopt an all-in-one security approach that takes care of the entire life cycle of applications – covering development and runtime protection. Prevasio makes transitioning to a CNAPP a fantastic experience. Prevasio takes pride in helping organizations protect their cloud-native applications and other cloud assets. Prevasio’s agentless cloud-native application protection platform (CNAPP) offers increased risk visibility and enables security teams to reinforce best practices. Contact us to learn how we can help you manage your cloud security. Schedule a demo Related Articles 2025 in review: What innovations and milestones defined AlgoSec’s transformative year in 2025? AlgoSec Reviews Mar 19, 2023 · 2 min read Navigating Compliance in the Cloud AlgoSec Cloud Mar 19, 2023 · 2 min read 5 Multi-Cloud Environments Cloud Security Mar 19, 2023 · 2 min read Speak to one of our experts Speak to one of our experts Work email* First name* Last name* Company* country* Select country... Short answer* By submitting this form, I accept AlgoSec's privacy policy Schedule a call

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